On January 28, 2009, the launch of a long-planned international agency to promote the interests of renewable energy took place in Bonn, Germany. The International Renewable Energy Agency (IRENA) will advise industrialized and developing nations on ways of reducing their dependency on oil, coal and gas.

The new agency aims to counterbalance existing bodies like the International Energy Agency in France and the nuclear–focused IRENA in Vienna. Founder countries signing up to the agreement include Germany, Denmark, Spain and the UAE. Some 55 governments have committed to full IRENA membership, with a total of 116 countries taking part. Significant absentees from full membership were USA and UK, although both administrations are expected to send officials to observe.

Speaking at the opening event, German Environment Minister Sigmar Gabriel said the potential for renewable energies is huge, and needs more help to achieve a global breakthrough. “IRENA will be the new mouthpiece for renewable energies,” he said.

The new organization aims to facilitate the transfer of renewable technologies to developing countries and encourage the widespread adoption of renewable energy.

There is expected to be competition for the host country for IRENA with Bonn and Abu Dhabi having already thrown their hats into the ring. Abu Dhabi is pushing itself forward as a hub for renewable energy research and development with the construction of the Masdar sustainable city, the announcement last week of a seven per cent renewable energy target by 2010, and the hosting of the World Future Energy Summit. Speaking at the Summit last week, Masdar CEO Dr Sultan Al Jabar said, “Abu Dhabi will express keen interest in hosting IRENA in Masdar city”.

German Member of Parliament and long-time proponent of a body to represent the interest of renewable energy, Hermann Sheer said, “Renewable energy’s potential has been underestimated in the past. This international organization will create a level playing field and help governments develop policies tailored to their own requirements.”

Thailand Energy Minister Wannarat Charnukul, who is attending the opening ceremony, last week welcomed the launch of IRENA. “We’ve confronted some problems with solar energy development in Thailand so we need some technology transfer from IRENA,” Wannaret said.

Germany, Spain and Denmark initially campaigned for the foundation of a renewable energy organization. The preliminary framework was drawn up in Madrid in October 2008.

On January 26, 2009, Lockheed Martin and Ocean Power Technologies agreed to work together to develop a commercial-scale wave energy project off the coasts of Oregon or California.

OPT is providing their expertise in project and site development as they build the plant’s power take-off and control systems with their PowerBuoy for electricity generation. Lockheed will build, integrate and deploy the plant as well as provide operating and maintenance services. Lockheed and OPT have already worked together on maritime projects for the U.S. government.

Spanish utility Iberdrola is using OPT’s PowerBuoy on the Spainish coast in Santoña for first phase deployment, hoping to become the first commercial-scale wave energy device in the world. In the Spainish project, Lockheed and Ocean Power are working toward an increased cost-performance of a power-purchasing agreement from which this U.S. wave energy project may benefit.

La Ventosa, Mexico — On January 22, 2009 Mexico inaugurated one of the world’s largest wind farm projects as the nation looks for alternative energy, in part to compensate for falling oil production.

Mexico is trying to exploit its rich wind and solar potential after relying almost exclusively on petroleum for decades. With oil production down by 9.2% in 2008, Mexico now is turning to foreign companies, mainly Spanish, to tap its renewable riches.

“If we don’t do something about this problem of climate change it probably could become — I’m sure it already is — one of the biggest threats to humanity,” said President Felipe Calderon at the inaugural ceremony attended by about 1,000 residents, many of whom held on to their cowboy hats on this wind-swept day.

The new, $550 million project is in a region so breezy that the main town is named La Ventosa, or “Windy.” It’s on the narrow isthmus between the Gulf of Mexico and the Pacific Ocean, where winds blow at 15 mph to 22 mph, a near-ideal rate for turbines. Gusts have been known to topple tractor trailers.

Spanish energy company Acciona Energia says the 6,180-acre farm should generate 250 megawatts of electricity with 167 turbines, 25 of which are already operating. The rest should be on line by the end of the year, making the project the largest of its kind in Latin America.

It will produce enough energy to power a city of 500,000 people, while reducing carbon monoxide emissions by 600,000 metric tons each year, according to the company.

Esteban Morras, Acciona board member, said the project could be just the start for Mexico.

“This country has great potential for wind development and should take advantage,” he said.

The project is also a joint venture with Cemex Inc. and will provide 25% of the Mexican cement giant’s energy needs, fulfilling the company’s goal of using alternative fuels.

Mexico hopes to boost the nation’s wind energy capacity, mainly at La Ventosa, to 5,000 megawatts — about 10 times its current output. Wind energy now accounts for less than 2% of electricity production.

Energy Secretary Georgina Kessel said the government is planning a series of wind projects that by 2012 should generate 2,500 megawatts of electricity.

“The intensity of wind in various parts of the country can make our plants among the most efficient in the world,” she said.

But the project hasn’t been welcomed by local residents, who say they see few benefits and aren’t being paid enough for use of their lands.

Several hundred protesters blocked a road leading to the site, holding a banner reading “no to the project.”

The mayor of Juchitan, the municipality where La Ventosa is located, attended the ceremony but called for more benefits for the local community.

“We want to be part of a project that does not consider us just cheap labor but property owners and partners,” Mariano Santana Lopez said.

Critics argue that foreign companies build the turbines, rent the land, run the project and produce the power for companies like U.S.-owned retailer Wal-Mart.

“They promise progress and jobs, and talk about millions in investment in clean energy from the winds that blow through our region,” a leftist farm group known as the Assembly in Defense of the Land said in a statement. “But the investments will only benefit businessmen, all the technology will be imported … and the power won’t be for local inhabitants.”

The group is calling on supporters to “defend the land we inherited from our ancestors.” But so far it hasn’t been able to stop the project.

Acciona, for its part, says the construction of the project created 850 jobs.

Local residents, largely Zapotec Indians, are accustomed to foreigners’ coveting their land. The United States demanded rights to transport goods over the isthmus in the 1850s, and foreigners tried to build a railway alternative to the Panama Canal there.

Honolulu-based Sopogy announced last week that it will build a 50-megawatt system in Toledo, Spain, using its proprietary technology in partnership with a German energy financier and a Spanish project developer. The system could generate enough electricity to power 15,000 homes.

Sopogy founder and CEO Darren Kimura said the Spanish project, expected to be completed by the end of 2010 and cost about $300 million, is part of the company’s plans to expand its presence abroad as the U.S. financial market wanes.

“For about a year now, Sopogy has felt that it’s necessary to diversify and become more global,” Kimura told PBN. “Because our technology offers higher production and lower capital costs, we’re looking for sites where our technology has the best value, and the best value today lies in the European market.”

– Deployed and tested a PowerBuoy off the coast of Spain under the wave power contract with Iberdrola

– Awarded $2.0 million from the US Department of Energy in support of OPT’s wave power project in Reedsport, Oregon

– Deployed and tested a PowerBuoy for the US Navy at a site off Marine Corps Base Hawaii, on the island of Oahu

– Ocean-tested 70 miles off the coast of New Jersey an autonomous PowerBuoy developed specifically for the US Navy’s ocean data gathering program

– Awarded $3.0 million contract from the US Navy for the second phase of their ocean data gathering program

– US Congress passes bill which provides for wave power to qualify for the US production tax credit

Dr. George Taylor, OPT’s CEO, said, “We have maintained the positive momentum with which we began the 2009 fiscal year, and have made significant progress under a number of contracts during the quarter, most notably with the US Navy and Iberdrola. In September, we deployed a PB40-rated PowerBuoy in Spain under our contract with Iberdrola, one of the world’s largest renewable energy companies. OPT also tested one of its autonomous PowerBuoy systems off the coast of New Jersey in October, under contract from the US Navy in connection with the Navy’s Deep Water Active Detection System (“DWADS”) initiative. We ended the second quarter with a PowerBuoy deployment for the US Navy in Hawaii. We have also furthered our relationship with this significant partner and announced a $3.0 million contract for participation in the second phase of the US Navy’s DWADS program.”

“We expect that the US Government’s recent expansion of the production tax credit to now include wave energy will help better position OPT competitively in the alternative energy arena. We are also gratified by signs that the Obama administration in the United States is keen on leveraging renewable energy sources as commercial sources of energy for the country. The $2.0 million award we received this quarter from the Department of Energy, in support of our work in Reedsport, Oregon, is reflective of the US Government’s support for wave energy,” Dr. Taylor concluded.

More about OPT

OPT has seen strong demand for wave energy systems as evidenced by record levels of contract order backlog, currently at $8.0 million. OPT continues to make steady progress on development of the 150 kW-rated PowerBuoy (PB150), which comprises a significant portion of our current backlog. The design of the PB150 structure is on track to be completed by the end of calendar year 2008, and is expected to be ready for complete system testing in 2009. OPT continues to work actively with an independent engineering group to attain certification of the 150 kW PowerBuoy structure design.

OPT’s patent portfolio continues to grow as one new US patent was issued during the second quarter of fiscal year 2009. The Company’s technology base now includes a total of 39 issued US patents.

During the second quarter of fiscal 2009, the Company announced that it expects to benefit from the energy production tax credit provision of the Energy Improvement and Extension Act of 2008. Production tax credit provisions which were already in place served only to benefit other renewable energy sources such as wind and solar. The Act will, for the first time, enable owners of wave power projects in the US to receive federal production tax credits, thereby improving the comparative economics of wave power as a renewable energy source.

OPT is involved in wave energy projects worldwide:

REEDSPORT, OREGON, US – OPT received a $2.0 million award from the US Department of Energy (DoE), in support of OPT’s wave power project in Reedsport, Oregon. The DoE grant will be used to help fund the fabrication, assembly and factory testing of the first PowerBuoy to be installed at the Reedsport site. This system will be a 150 kW-rated PB150 PowerBuoy, major portions of which will be fabricated and integrated in Oregon. OPT is working closely with interested stakeholder groups at local, county and state agency levels while also making steady progress on the overall permitting and licensing process.

SPAIN – OPT deployed and tested its first commercial PowerBuoy under contract with Iberdrola S.A., one of the world’s largest renewable energy companies, and its partners, at a site approximately three miles off the coast of Santona, Spain. The enhanced PB40 PowerBuoy, which incorporates OPT’s patented wave power technology, is the first step of what is expected to be a utility-grade OPT wave power station to be built-out in a later phase of the project.

ORKNEY ISLANDS, UK – OPT is working under a contract with the Scottish Government at the European Marine Energy Centre (“EMEC”) in the Orkney Islands, Scotland to deploy a 150 kW PowerBuoy. OPT is currently working on building the power conversion and power take-off sub-assemblies. The Company is also reviewing prospective suppliers for manufacturing of the PowerBuoy, which is on track to be ready for deployment by the end of calendar year 2009. As part of its agreement with EMEC, OPT has the right to sell power to the grid up to the 2MW berth capacity limit, at favorable marine energy prices.

CORNWALL, UK –The “Wave Hub” project developer, South West of England Regional Development Agency (“SWRDA”), recently appointed an engineering contractor to manage the construction of the “Wave Hub” marine energy test site. SWRDA has forecasted that the Wave Hub connections, cabling and grid connection infrastructure will be completed by the end of the 2010 calendar year. OPT continues to work with SWRDA and is monitoring its progress in developing the project site.

HAWAII, US – OPT deployed its PowerBuoy systems near Kaneohe Bay on the island of Oahu. The PowerBuoy was launched under OPT’s on-going program with the US Navy at a site off Marine Corps Base Hawaii and will be connected to the Oahu power grid.

US NAVY DEEP OCEAN APPLICATION – OPT tested one of its autonomous PowerBuoy systems 70 miles off the coast of New Jersey. The PowerBuoy was constructed under contract from the US Navy in connection with the Navy’s DWADS initiative, a unique program for deep ocean data gathering. The Company received a $3.0 million contract award for the second phase of the program, which is for the ocean testing of an advanced version of the autonomous PowerBuoy.

Europe’s biggest onshore wind farm plugged itself into the grid today to provide enough electricity for up to a million people in northern Portugal.

A total of 120 windmills are dotted across the highlands of the Upper Minho region of Portugal as one of western Europe’s poorer nations continues to forge its reputation as a renewables champion.

“Europe’s largest onshore wind farm is now fully operational,” a spokeswoman for France’s EDF Energies Nouvelles, which co-owns the farm, announced this morning.

The two megawatt turbines on each windmill deliver electricity to a single connection point with the electricity grid and should supply around 1% of Portugal’s total energy needs.

A second, smaller wind farm is already functioning nearby, giving a combined output of 650 gigawatt hours per year. “That is above 1% of national consumption,” said Nuno Ribeiro da Silva, head of the VentoMinho company that runs the farm.

That would provide enough energy for 300,000 homes, or most of the northern city of Viana do Castelo and its surrounding districts, he told the Publico newspaper.

Portugal’s mixture of government enthusiasm, subsidies and special tariffs has turned it into one of the focal points of renewables development in Europe over the past five years.

The world’s largest solar photovoltaic farm is being built near the southern town of Moura. The Moura solar farm, which will include a research centre, should be twice the size of any other in the world when it is fully up and running in two years time.

Portugal also recently inaugurated the world’s first commercial wave power plant in the Atlantic Ocean off Aguçadoura, using technology developed in Scotland.

The country is heavily dependent on imported fossil fuels and has set a target of obtaining 31% of energy needs from renewables by the year 2020. That is more than twice the UK target. It also uses its subsidies policy to insist that manufacturers of turbines and solar panels set up production plants.

“By 2010 we will have 5,000MW of wind energy installed, meaning we will have increased it tenfold in just five years,” economy minister Manuel Pinho said. “This is another step towards putting our country in the vanguard of what is being done with renewable energy.”

Portugal, which claims to be one of the world’s top five renewable energy countries, provides subsidies of up to 40% for new projects.

The world’s largest onshore wind farms are in the United States, with the Horse Hollow farm in Texas providing more than 700MW.

These will soon be dwarfed by proposed offshore wind farms of up to 5,000MW each.

Newton, Iowa – Like his uncle, his grandfather and many of their neighbors, Arie Versendaal spent decades working at the Maytag factory here, turning coils of steel into washing machines.

When the plant closed last year, taking 1,800 jobs out of this town of 16,000 people, it seemed a familiar story of American industrial decline: another company town brought to its knees by the vagaries of global trade.

Except that Mr. Versendaal has a new factory job, at a plant here that makes blades for turbines that turn wind into electricity. Across the road, in the old Maytag factory, another company is building concrete towers to support the massive turbines. Together, the two plants are expected to employ nearly 700 people by early next year.

“Life’s not over,” Mr. Versendaal says. “For 35 years, I pounded my body to the ground. Now, I feel like I’m doing something beneficial for mankind and the United States. We’ve got to get used to depending on ourselves instead of something else, and wind is free. The wind is blowing out there for anybody to use.”

From the faded steel enclaves of Pennsylvania to the reeling auto towns of Michigan and Ohio, state and local governments are aggressively courting manufacturing companies that supply wind energy farms, solar electricity plants and factories that turn crops into diesel fuel.

This courtship has less to do with the loftiest aims of renewable energy proponents — curbing greenhouse gas emissions and lessening American dependence on foreign oil — and more to do with paychecks. In the face of rising unemployment, renewable energy has become a crucial source of good jobs, particularly for laid-off Rust Belt workers.

Amid a presidential election campaign now dominated by economic concerns, wind turbines and solar panels seem as ubiquitous in campaign advertisements as the American flag.

No one believes that renewable energy can fully replace what has been lost on the American factory floor, where people with no college education have traditionally been able to finance middle-class lives. Many at Maytag earned $20 an hour in addition to health benefits. Mr. Versendaal now earns about $13 an hour.

Still, it’s a beginning in a sector of the economy that has been marked by wrenching endings, potentially a second chance for factory workers accustomed to layoffs and diminished aspirations.

In West Branch, Iowa, a town of 2,000 people east of Iowa City, workers now assemble wind turbines in a former pump factory. In northwestern Ohio, glass factories suffering because of the downturn in the auto industry are retooling to make solar energy panels.

“The green we’re interested in is cash,” says Norman W. Johnston, who started a solar cell factory called Solar Fields in Toledo in 2003.

The market is potentially enormous. In a report last year, the Energy Department concluded that the United States could make wind energy the source of one-fifth of its electricity by 2030, up from about 2 percent today. That would require nearly $500 billion in new construction and add more than three million jobs, the report said. Much of the growth would be around the Great Lakes, the hardest-hit region in a country that has lost four million manufacturing jobs over the last decade.

Throw in solar energy along with generating power from crops, and the continued embrace of renewable energy would create as many as five million jobs by 2030, asserts Daniel M. Kammen, director of the Renewable and Appropriate Energy Laboratory at the University of California, Berkeley, and an adviser to the presidential campaign of Senator Barack Obama.

The unfolding financial crisis seems likely to slow the pace of development, making investment harder to secure. But renewable energy has already gathered what analysts say is unstoppable momentum. In Texas, the oil baron T. Boone Pickens is developing what would be the largest wind farm in the world. Most states now require that a significant percentage of electricity be generated from wind, solar and biofuels, effectively giving the market a government mandate.

And many analysts expect the United States to eventually embrace some form of new regulatory system aimed at curbing global warming that would force coal-fired electricity plants to pay for the pollution they emit. That could make wind, solar and other alternative fuels competitive in terms of the cost of producing electricity.

Both presidential candidates have made expanding renewable energy a policy priority. Senator Obama, the Democratic nominee, has outlined plans to spend $150 billion over the next decade to spur private companies to invest. Senator John McCain, the Republican nominee, has spoken more generally of the need for investment.

In June, more than 12,000 people and 770 exhibitors jammed a convention center in Houston for the annual American Wind Energy Association trade show. “Five years ago, we were all walking around in Birkenstocks,” says John M. Brown, managing director of a turbine manufacturer, Entegrity Wind Systems of Boulder, Colo., which had a booth on the show floor. “Now it’s all suits. You go to a seminar, and it’s getting taught by lawyers and bankers.”

So it goes in Iowa. Perched on the edge of the Great Plains — the so-called Saudi Arabia of wind — the state has rapidly become a leading manufacturing center for wind power equipment.

“We are blessed with certainly some of the best wind in the world,” says Chet Culver, Iowa’s governor.

Maytag was born in Newton more than a century ago. Even after the company swelled into a global enterprise, its headquarters remained here, in the center of the state, 35 miles east of Des Moines.

“Newton was an island,” says Ted Johnson, the president of local chapter of the United Automobile Workers, which represented the Maytaggers. “We saw autos go through hard times, other industries. But we still had meat on our barbecues.”

The end began in the summer of 2005. Whirlpool, the appliance conglomerate, swallowed up Maytag. As the word spread that local jobs were doomed — Whirlpool was consolidating three factories’ production into two — workers unloaded their memorabilia at Pappy’s Antique Mall downtown: coffee mugs, buttons, award plaques.

“If it said Maytag on it, we bought it,” says Susie Jones, the store manager. “At first, I thought the stuff had value. Then, it was out of the kindness of my heart. And now I don’t have any heart left. It don’t sell. People are mad at them. They ripped out our soul.”

When the town needed a library, a park or a community college, Maytag lent a hand. The company was Newton’s largest employer, its wages paying for tidy houses, new cars, weddings, retirement parties and funerals.

As Whirlpool made plans to shutter the factory, state and county economic development officials scrambled to attract new employers. In June 2007, the local government dispatched a team to the American Wind Energy Association show in Los Angeles. Weeks later, a company called TPI Composites arrived in Newton to have a look.

Based in Arizona, TPI makes wind turbine blades by layering strips of fiberglass into large molds, requiring a long work space. The Maytag plant was too short. So local officials showed TPI an undeveloped piece of land encircled by cornfields on the edge of town where a new plant could be built.

Although TPI was considering a site in Mexico with low labor costs, Newton had a better location. Rail lines and Interstate 80 connect it to the Great Plains, where the turbines are needed. Former Maytag employees were eager for work, and the community college was ready to teach them blade-making.

Newton won. In exchange for $6 million in tax sweeteners, TPI promised to hire 500 people by 2010. It has already hired about 225 and is on track to have a work force of 290 by mid-November.

“Getting 500 jobs in one swoop is like winning the lottery,” says Newton’s mayor, Chaz Allen. “We don’t have to just roll over and die.”

On a recent afternoon, workers inside the cavernous TPI plant gaze excitedly at a crane lifting a blade from its mold and carrying it toward a cleared area. Curved and smooth, the blade stretches as long as a wing of the largest jets. One worker hums the theme from “Jaws” as the blade slips past.

Larry Crady, a worker, takes particular pleasure in seeing the finished product overhead, a broad grin forming across his goateed face. He used to run a team that made coin-operated laundry machines at Maytag. Now he supervises a team that lays down fiberglass strips between turbine moldings. He runs his hand across the surface of the next blade for signs of unevenness.

“I like this job more than I did Maytag,” Mr. Crady says. “I feel I’m doing something to improve our country, rather than just building a washing machine.”

Ask him how long he spent at Maytag and Mr. Crady responds precisely: “23.6 years.” Which is to say, 6.4 years short of drawing a pension whose famously generous terms compelled so many to work at the Maytag plant. “That’s what everyone in Newton was waiting on,” he says. “You could get that 30 and out.”

But he is now optimistic about the decades ahead. “I feel solid,” he says. “This is going to be the future. This company is going to grow huge.”

The human resources office at TPI is overseen by Terri Rock, who used to have the same position at Maytag’s corporate headquarters, where she worked for two decades. In her last years there, her job was mostly spent ending other people’s jobs.

“There was a lot of heartache,” she says. “This is a small town, and you’d have to let people go and then see them at the grocery store with their families. It was a real tough job at the end.”

Now, Ms. Rock starts fresh careers, hiring as many as 20 people a week. She enjoys the creative spirit of a start-up. “We’re not stuck with the mentality of ‘this is how we’ve done it for the last 35 years,’ ” she says.

Maytag is gone in large part because of the calculus driving globalization: household appliances and so many other goods are now produced mostly where physical labor is cheaper, in countries like China and Mexico. But wind turbines and blades are huge and heavy. The TPI plant is in Iowa largely because of the costs of shipping such huge items from far away.

“These are American jobs that are hard to export,” says Crugar Tuttle, general manager of the TPI plant.

And these jobs are part of a build-out that is gathering force. More than $5 billion in venture capital poured into so-called clean energy technology industries last year in North America and Europe, according to Cleantech, a trade group. In North America, that represented nearly a fifth of all venture capital, up from less than 2 percent in 2000.

“Everybody involved in the wind industry is in a massive hurry to build out capacity,” Mr. Tuttle says. “It will feed into a whole local industry of people making stuff, driving trucks. Manufacturing has been in decline for decades. This is our greatest chance to turn it around. It’s the biggest ray of hope that we’ve got.”

Those rays aren’t touching everyone, though. Hundreds of former Maytag workers remain without jobs, or stuck in positions paying less than half their previous wages. Outside an old union hall, some former Maytaggers share cigarettes and commiserate about the strains of starting over.

Mr. Johnson, the former local president, is jobless. At 45, he has slipped back into a world of financial hardship that he thought he had escaped. His father was a self-employed welder. His mother worked at an overalls factory.

“I grew up in southern Iowa with nothing,” he says. “If somebody got a new car, everybody heard about it.”

When Maytag shut down, his $1,100-a-week paycheck became a $360 unemployment check. He and his wife divorced, turning what once was a two-income household into a no-income household. He sold off his truck, his dining room furniture, his Maytag refrigerator — all in an effort to pay his mortgage. Last winter, he surrendered his house to foreclosure.

Mr. Johnson has applied for more than 220 jobs, he says, from sales positions at Lowe’s to TPI. He has yet to secure an interview. His unemployment benefits ran out in May. He no longer has health insurance. He recently broke a tooth where a filling had been, but he can’t afford to have it fixed.

When his teenage daughter, who lives with him, complained of headaches, he paid $1,500 out of pocket for an M.R.I. The doctor found a cyst on her brain. And how is she doing now? Mr. Johnson freezes at the question. He is a grown man with silver hair, a black Harley-Davidson T-shirt across a barrel chest, and calloused hands that could once bring a comfortable living. He tries to compose himself, but tears burst. “I’m sorry,” he says.

He signed up for a state insurance program for low-income families so his daughter could go to a neurologist.

Although the United States is well behind Europe in manufacturing wind-power gear and solar panels, other American communities are joining Newton’s push, laying the groundwork for large-scale production.

“You have to reinvest in industrial capacity,” says Randy Udall, an energy consultant in Carbondale, Colo. “You use wind to revitalize the Rust Belt. You make steel again. You bring it home. We ought to be planting wind turbines as if they were trees.”

In West Branch, Acciona, a Spanish company, has converted the empty hydraulic pump factory into a plant that makes wind turbines. When the previous plant closed, it wiped out 130 jobs; Acciona has hired 120 people, many of them workers from the old factory.

Steve Jennings, 50, once made $14 an hour at the hydraulic pump factory. When he heard that a wind turbine plant was coming in a mere five miles from his house, he was among the first to apply for a job. Now he’s a team leader, earning nearly $20 an hour — more than he’s ever made. Ordinary line workers make $16 an hour and up.

“It seemed like manufacturing was going away,” he says. “But I think this is here to stay.”

Acciona built its first turbine in Iowa last December and is on track to make 200 this year. Next year, it plans to double production.

For now, Acciona is importing most of its metal parts from Europe. But the company is seeking American suppliers, which could help catalyze increased metalwork in the United States.

“Michigan, Ohio — that’s the Rust Belt,” says Adrian LaTrace, the plant’s general manager. “We could be purchasing these components from those states. We’ve got the attention of the folks in the auto industry. This thing has critical mass.”

In Toledo, the declining auto industry has prompted a retooling. For more than a century, the city has been dominated by glass-making, but the problems of Detroit automakers have softened demand for car windows from its plants. Toledo has lost nearly a third of its manufacturing jobs since 2000.

Now, Toledo is harnessing its glass-making skills to carve out a niche in solar power. At the center of the trend is a huge glass maker, Pilkington, which bought a Toledo company that was born in the 19th century.

Half of Pilkington’s business is in the automotive industry. In the last two years, that business is down 30% in North America. But the solar division, started two years ago, is growing at a 40 percent clip annually.

Nearby, the University of Toledo aims to play the same enabling role in solar power that Stanford played at the dawn of the Internet. It has 15 faculty members researching solar power. By licensing the technologies spawned in its labs, the university encourages its academics to start businesses.

One company started by a professor, Xunlight, is developing thin and flexible solar cells. It has 65 employees and expects to have as many as 150 by the middle of next year.

“It’s a second opportunity,” says an assembly supervisor, Matt McGilvery, one of Xunlight’s early hires. Mr. McGilvery, 50, spent a decade making steel coils for $23 an hour before he was laid off. Xunlight hired him this year. His paycheck has shrunk, he says, declining to get into particulars, but his old-fashioned skills drawing plans by hand are again in demand as Xunlight designs its manufacturing equipment from scratch, and the future seems promising.

“The hope is that two years from now everything is smoking and that envelope will slide across the table,” he says. “The money that people are dumping into this tells me it’s a huge market.”

In Newton, the tidy downtown clustered around a domed courthouse is already showing signs of new life, after the pain of Maytag’s demise.

The owner of Courtyard Floral, Diane Farver, says she saw a steep drop in sales after Maytag left, particularly around holidays like Valentine’s Day and Mother’s Day, when she used to run several vanloads a week to the washing machine plant. Times have changed since that decline. When TPI recently dispatched workers to a factory in China for training, the company ordered bouquets for the spouses left at home.

Across the street at NetWork Realty, the broker Dennis Combs says the housing market is starting to stabilize as Maytag jobs are replaced.

“We’ve gone from Maytag, which wasn’t upgrading their antiquated plant, to something that’s cutting-edge technology, something that every politician is screaming this country has to have,” he says.

At Uncle Nancy’s Coffee House, talk of unemployment checks and foreclosures now mixes with job leads and looming investment.

“We’re seeing hope,” says Mr. Allen, the mayor.

The town is hardly done. Kimberly M. Didier, head of the Newton Development Corporation, which helped recruit TPI, is trying to attract turbine manufacturers and providers of raw materials and parts for the wind industry.

“This is in its infancy,” she says. “Automobiles, washer-dryers and other appliances have become commodities in their retirement phase. We’re in the beginning of this. How our economy functions is changing. We built this whole thing around oil, and now we’ve got to replace that.”

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